Drinking straw with internal coating

ABSTRACT

A drinking straw having an internal coating for delivery of an active agent when the straw is used to consume a beverage is provided. The active agent includes sweetener, flavour, a nutrient and/or a pharmaceutical and optionally colour. The coating is prepared by mixing a modified cellulose with water to form a paste or gel. The coating is then used to coat the inside surface of a drinking straw to a thickness of up to 1 mm. The coating is dried to reduce the water content to less than 5% by weight. Liquid drawn through the straw breaks down the modified cellulose releasing the active agent into the liquid, for consumption.

INTRODUCTION

The present invention relates to drinking straws having an internalcoating which progressively dissolves, breaks down or erodes in a fluidbeing drawn through the straw in use. While the coating may typicallyinclude sweeteners and flavourings, it may additionally or alternativelyinclude other agents such as vitamins, stimulants, probiotics and/orpharmaceutical products

BACKGROUND TO THE INVENTION

Filled straws are readily available in supermarkets around the world foradding flavour to beverages. The most commonly available straws arefilled with pellets containing sweeteners and flavourings, for examplestrawberry or chocolate. The straws can be used to drink milk, with thepellets gradually dissolving in the milk as it is drawn through thestraw, flavouring and sweetening the milk. The advantage of such strawsare that a range of flavours take up less space, and they have a longershelf life than flavoured milks, and are easier to use and morecontrolled than milk flavouring powder which has to be dissolved intomilk to make a drink. Such straws can also be used to flavour water.

Other types of filled straws have also been proposed, in particularstraws in which a dissolvable coating is adhered to the inside surfaceof the straw. As liquid is drawn through the straw in use, the coatingdissolves into the fluid.

U.S. Pat. No. 4,921,713, in the name of Fowler, describes a straw forimparting flavour to otherwise neutral liquids, such as water or milk.Various methods of providing a material which dissolves in the liquidare described. These include a separate chamber containing flavouringmaterial, granular material held within the body of the straw by a pairof sponges, and a flavouring material adhered to the inside of thestraw.

US 2003/168772 in the name of Palaniappan describes a method ofmanufacturing an internally coated straw, in which the internal coatingis applied to the inside of the straw as it exits the extruder in whichit is formed. The coating material includes a matrix agent, which may bea maltodextrin or alginate, into which flavouring is added.

US 2011/143005, in the name of Gaonkar, also describes a drinking strawin which the inside of the straw is coated with a material that willflavour and sweeten a beverage drawn through the straw. The coatingcomprises an adhering agent and a powdered agent. The adhering agentincludes lipids, medium chain triglycerides oils, emulsifiers, andmixtures thereof. The powdered agents include edible acids, ediblebases, sweeteners, flavourings, vitamins, minerals, colorants, sensateagents, carotenoids, antioxidants, polyphenols, phytonutrients andmixture thereof.

The problem with all of these coatings is that the flavour they impartto the beverage is quite weak and/or they dissolve quickly in thebeverage. Otherwise they are simply uneconomical to produce a commercialproduct.

US 2006/0286214, in the name of Sanford Weiss et al, describes an edibledrinking straw comprising spirally wound layers of fruit film. Thelayers may be adhered together with a zein solution. This straw can beused to suck fluid into a user's mouth and as the fluid passes throughthe straw part of the straw dissolves imparting some flavour to thefluid. This will result in loss of structural integrity in the straw andonce this has happened the remaining straw material can be dissolvedinto a fluid or eaten directly.

US 2005/0106188, in the name of Kerdar et al, describes a filleddrinking straw in which the filling is retained within the straw bymeans of barrier devices which may be in the form of a plug or a mesh.These allow fluid to pass through the straw, dissolving the fillingmaterial, but retain any undissolved filling material within the straw.Other types of filled straw, for example EP1509096, are known in whichthe filling is provided in pellets and is retained in the straw by meansof filters.

The provision of barrier means or filters adds additional steps to themanufacturing process, adding time and cost. In addition the barriermeans or filters, unless integral to the straw, could become dislodgedand represent a choking risk. In addition, failure of a filter, i.e. thecreating of a larger aperture than intended, could result in thecontents of the straw passing into the user's mouth undissolved, againrepresenting a choking risk.

One of the objects of the invention is to provide a filled strawavoiding the use of barrier or filtration means.

US 2004/0109932, in the name of Chen et al, describes a coated drinkingstraw in which to coating comprises 40 to 99.99% of a food grade acid.The composition may also include a surface tension reducing agent, aplasticizer, a bulk agent and water. Coating may be via co-extrusion,spraying or dipping. A second coating may be provided in the form of apowder comprising further food grade acid, sugar, fizzing agents,colourants, probiotics, vitamins, herbs, and flavouring agents. Thispowder can adhere to the sticky surface of the acid coating.

It is desirable to provide a filled straw which provides an alternativeto the pellet containing straws.

It is also desirable to provide a straw having an improved internalcoating.

It is also desirable to provide a straw allowing consumption of a verythick or viscous beverage or a beverage that contains a high componentof solid particles or a beverage that contains large solid or gelparticles. These beverages will not pass through a straw that is filledwith beads nor one that has a filter means at one or both ends. Examplesof this are orange juice with pulp, semi-frozen beverages or bubble tea.

An object of the invention is to provide alternative drinking strawscontaining material which dissolves into a liquid drawn through thestraw on use, and methods of making such straws.

SUMMARY OF THE INVENTION

A drinking straw is provided comprising an elongate body having aninternal coating comprising a matrix which adheres to the inside of thebody and holds agent to be consumed by a user.

DETAILS OF THE INVENTION

Accordingly, the present invention provides a drinking straw comprisingan elongate tubular body of an insoluble material having an internalcoating comprising a modified cellulose-based matrix containing anactive agent dispersed within the matrix, the body sized to allow acarrier liquid to be drawn therethrough such that passage of the carrierliquid causes the matrix to progressively release the active agent intothe carrier liquid to be consumed by a drinker, wherein the coating hasa thickness of less than 1 mm.

In use, a user places one end of the straw into a container holding abeverage and draws the beverage through the straw, releasing active fromthe modified cellulose into the beverage for consumption.

Preferably the modified cellulose will be selected from hydroxypropylmethylcellulose, hydroxypropyl cellulose, methyl ethyl cellulose, methylcellulose and carboxymethylcellulose or a combination thereof. All ofthese modified celluloses are approved for use in food use and as suchhave been given food additive numbers E464, E463, E465, E461 and E466.The preferred modified cellulose is hydroxypropyl methylcellulose.

The matrix is formed as a thick paste or gel which can adhere to theinternal surface of the straw. The matrix is preferably formed as anaqueous paste or gel, and once it has been applied to the internal strawwall is optionally dried to remove excess water content. Morepreferably, the matrix is formulated to be non-drip; once applied such amatrix adheres to the internal straw wall without dripping or flowingand hence both does not drip and also does not flow so as to accumulatein vertically lower areas of the straw.

Usually the active agent will include sweetening and flavouringmaterials and may also include colorants. Such straws may containacidulating materials. However, such straws may additionally oralternatively be used for delivery of other active agents, such asnutritional supplement, including herbal extracts, vitamins, minerals,amino acids, fatty acids, probiotics and/or pharmaceutical substances.

Where pharmaceutical, nutritional and/or vitamins and minerals areincluded in the active agent, sweeteners and/or flavourings may also beincluded.

Straws may also be formulated to provide an energy drink, the coatingcontaining a stimulant, such as caffeine, and B vitamins. In suchcompositions it is important the water content be low as certainvitamins, and in particular B vitamins can degrade in the presence ofwater.

Straws containing any amino acids will also require a low water contentas these compounds will also degrade in the presence of high moisturelevels.

Usually the straws will be dried to have a water content of less than5%, preferably less than 3% and most preferably less than 1% by weight.

Many pharmaceutical compounds can be provided in a form which may beheld within the matrix and released into the liquid as the matrix breaksdown or dissolves on passage of the liquid through the straw. Thecompounds may dissolve into the liquid, or may be suspended, but will bedrawn into the user's mouth to be ingested. This may provide a moreconvenient form for some patients to take certain medications, as analternative to swallowing tablets.

The active agent may also include nutritional compounds, which again maydissolved into the liquid or be suspended as the matrix dissolves intoliquid drawn through the straw. Again this can provide a convenient wayfor such compounds to be taken.

The proportions of the matrix and the active agent may vary contingenton the active agent and the volume of liquid in which it is desired thatthe coating will dissolve. Typically a coating will comprise 5-30% byweight modified cellulose and 70-95% active agent. Preferably themodified cellulose will comprise 5-15% of the coating, and morepreferably 10-15%. Typically the ratio of matrix to active agent will bebetween 1:2 and 1:20, more typically 1:5 and 1:20 and preferably between1:5 and 1:10.

The coatings can be designed to dissolve in a predetermined volume ofliquid, which will depend on the active agent and the user. Typicallythe coating will be designed to dissolve in 100-500 ml of liquid.

Coatings which comprise a pharmaceutical substance may be designed todissolve in a relatively small volume of liquid, typically 100-150 ml,so that they can be consumed quickly and easily by the user, who may beill.

Coatings which comprise mainly sweetening and flavourings, possiblyadditionally including vitamins and minerals, may be designed todissolve over a larger volume of liquid, for example 250-500 ml, so thatthe user may enjoy a larger volume of flavoured beverage.

The thickness of the coating will also affect the dissolution of thecoating. Thicker coatings will typically take longer to dissolve (at thesame dryness level). Coatings will typically be applied to a thicknessof up to 1 mm, e.g. 0.1-1 mm, more typically up to 0.7 mm, e.g. 0.2 to0.7 mm. Usually the coating will have a thickness of up to 0.5 mm,preferably up to 0.25 mm. The most preferred thickness for the coating,used in a specific example below, is substantially 0.2 mm.

The combination of the thickness of the coating and the proportion ofthe matrix can be altered to vary the dissolution time and the strengthof the active agent in the consumed beverage. For example a thin layerwith a high proportion of matrix, say 30%, will dissolve slowly, andrelease the active agent slowly. This may be suitable where the activeagent includes a very potent flavouring and sweetener, and small amountof these may be sufficient to flavour the liquid.

Alternatively a thicker layer of a coating comprising less matrix, sayless than 10% will deliver more active agent over substantially the samevolume of liquid drawn through the straw. This may be suitable where theflavour is less strong and it is necessary to deliver more.

In another embodiment, a thin layer of a coating comprising less matrix,can be used to deliver the active agent quickly, in less volume ofliquid drawn through the straw. For example where the active agent to bedelivered is a pharmaceutical product, the user may wish to consume thisin a relatively small volume of liquid.

As discussed above, the water content of the coating may be relevant tothe stability of the active agent. Typically the coated straw will bedried to remove additional water and reduce the water content. Usuallythe straws will have a water content of less than 5%, preferably lessthan 3% and most preferably less than 1% by weight.

The present invention also provides a method of preparing a drinkingstraw having an at-least partially coated internal portion, the methodcomprising the steps of:

-   -   providing a drinking straw of an insoluble material;    -   providing a coating material comprising a modified        cellulose-based matrix and an active agent dispersed within the        matrix;    -   applying the coating to an internal surface of the drinking        straw to a thickness of less than 1 mm; and    -   drying the coating.

Preferably the modified cellulose will be selected from hydroxypropylmethylcellulose, hydroxypropyl cellulose, methyl ethyl cellulose, methylcellulose and carboxymethylcellulose or a combination thereof. All ofthese modified celluloses are approved for use in food use and as suchhave been given food additive numbers E464, E463, E465, E461 and E466.The preferred modified cellulose is hydroxypropyl methylcellulose.

In some embodiments the coating is suitably prepared as a gel to enableadherence to the inside of the straw. In other embodiments it isprepared as a paste, typically a thick paste. It is also preferablyformulated to be non-drip so as to stay in place while drying, and notto run.

The coating may be prepared by mixing modified cellulose with water andheating the mixture to form a gel. The mixture may then be cooled beforethe active agent is added. Alternatively the coating may be prepared bymixing the modified cellulose with water and stirring to form a paste.Typically the paste may have a consistency of thick cream, whereby itcan support its own weight and thus will not drip or run, in particularwhen spread on a surface.

A suitable coating mixture will typically contain 1-10 g modifiedcellulose, preferably 2-7 g and more preferably 2-4 g in 10 ml of water.The amount of water will be chosen with respect to the particularmodified cellulose to achieve a non-drip material. An optional stage ofgel formation may be carried out by heating and a suitable temperaturemay be 40-45° C., preferably 42° C.

While the active agent may be added while the matrix gel is at elevatedtemperature, usually the gel is cooled to substantially room temperate,namely 20-25° C. before the active agent is added. Where the matrix isnot heated, no cooling is necessary.

Depending on the active agent and the volume of liquid into which thecoating is designed to dissolve, typically 5-30 g, preferably 10-20 gand more preferably 10-15 g, of active agent will be added to the gel.The active agent will often include sweetener, for example steviolglycosides, or sugars including glucose and/or fructose, and may alsoinclude flavourings, for example fruit flavours, chocolate flavours,vanilla flavours. Colorants are also often included. Additionally oralternatively the active agent may also include pharmaceutical productssuch as analgesics or other medicaments. The active agent may alsoinclude nutritional compounds, including vitamins and minerals, andpossibly fatty acids, amino acids, and/or phytochemicals. Alternativeagents may include herbal extracts.

Typically the ratio of matrix to active agent will be between 1:2 and1:20, more typically between 1:5 and 1:20 and preferably between 1:5 and1:10.

Once the coating has been formed, it is used to at least partially coatthe inside of a straw. Generally the straw will be made of plastic,typically polypropylene, although other types of plastic, for examplepolyethylene, or PET may be used. Metal or glass may also be used.Advantageously the straw may be provided as recyclable.

The coating may be applied by spraying the coating onto the inside ofthe straw. Alternatively it may be made by dipping the straw into thecoating and wiping the excess off the outside.

Preferably the coating is applied using a mandrel, having a head 0.1mm-1 mm smaller than the internal diameter of the straw. A predeterminedamount of the coating is placed on the end of the mandrel which passeddown the straw, depositing the coating as a thin layer around theinternal circumference of the straw. In an alternatively the mandrel maybe provided with a hollow body with an outlet on the head, the headhaving larger diameter than the body. A predetermined amount of coatingcan be pumped through the body to the head as the mandrel is passed downthe straw. As the mandrel is returned out of the straw, the head smoothsthe coating evenly onto the inside of the straw. The relative size ofthe internal diameter of the straw and the diameter of the head of themandrel determining the thickness of the coating applied.

The coating may be applied along the full length of the straw. In thealternative the coating may be applied to a portion of the length of thestraw only. For example the coating may be applied to a middle sectionof the straw only, with no coating being applied adjacent one or bothends of the straw. A 10-30 mm end of the straw may be without coating.When the coating is applied using a spray, both ends of the straw may bewithout a coating. When a mandrel is used, typically one end only willbe without coating. Alternatively the coating may be applied the fulllength of the straw and then removed from one or both ends, for exampleby washing or wiping.

The coating may also be applied to a portion of the straw to achieve aspecific geometry relative to the beverage to be consumed. This may meanapplied to the upper half of the straw for a coating that does not sitin the beverage being consumed or alternatively applied to the lowerhalf of the straw for a coating that gives an improved result by sittingimmersed in the beverage being consumed. In straws where the coating isapplied unevenly, i.e. mostly in one half, usually the straw will bemarked in some way to indicate to a user which end of the straw shouldbe place in the beverage, and which should be used to drink through.This may be providing the straw with a flat end, possibly a rolled end,for drinking through, and an angled end to be placed in the beverage.Alternatively, the end to be placed in the drink may be flared. In afurther alternative the outside of the straw may be provided with theindication, for example writing or colour coding.

Typically the coating will be applied to at least 50%, preferably atleast 70% of the internal surface area of the drinking straw, preferablybetween 70 and 90% of the surface, and most preferably between 75 and85% of the internal surface.

Once the coating has been applied, the coating is usually dried beforethe straw is packaged. Typically this is achieved by passing a stream ofrelatively cool, dry air, for example dry, room temperature air, throughthe straw. Alternatively coated straws may be passed through amoderately heated environment, or a flow of moderately heated air may beused to effect drying of the coating. Typically the air is not so hot asto cause melting of the straw or degradation of the active agent.

In may be advantageous to rotate the straw while applying the coating,and/or while drying the coating. This may assist in providing an evencoating and achieving an even and complete drying of the coating.

Once dried the coating will typically have a water content of less than5%, preferably less than 3% and most preferably less than 1% by weight.

After the drying the straws are typically packaged, either singly or insmall numbers, typically 3-5, in a moisture impervious packagingmaterial, to prevent the coating absorbing moisture from the atmosphere.

EXAMPLES

The invention is now illustrated in specific examples below.

Example 1 Drinking Straw with Lime Flavoured Coating

A coating for a drinking straw was prepared as follows:

5 g of hydroxypropyl methylcellulose was mixed with 10 g of water andthe mixture heated to 42° C. to form a gel. The gel was cooled to roomtemperature, namely 20° C.

A flavour mix was prepared of 60 g of lime flavour, 5 g steviolglycosides, 5 g citric acid, and 0.4 g (4 drops) green colorant. 15 g ofthis mixture was added to the cooled gel to create a coating fordrinking straws.

The coating was applied to the inside of 10 drinking straws. The strawshad an 8 mm external diameter, a 7.6 mm internal diameter and were 22 cmin length. The coating was applied to the straw at a thickness of 0.25mm using an appropriately sized mandrel. The coating was applied leavinga coating-free area at one end of 2 cm.

The coating was dried by passing cool, dry air through the straws for aperiod of 3 hours.

After drying the straw were wrapped in moisture resistant barrierpackaging.

Such a straw was used to flavour water at 0° C. and provided flavour toapproximately 350 ml consumed over a period of 10 minutes. Flavour wasprovided to the drink throughout that time with a residue only beingleft on the inside of the straw once the drink had been consumed.

Example 2 Drinking Straw with Chocolate Flavour Coating andMultivitamins

A coating was prepared by mixing 2 g of methylcellulose with 8 g waterand the mixture stirred to form a thick paste.

Active agent was prepared by mixing 100 g chocolate flavour, 20 gglucose, 20 g of a commercial available multivitamin and mineral mixincluding vitamin C and a blend of B vitamins, calcium and iron.

15 g of this active agent mixture was then added to the gel andcombined, and this coating mixture was used to coat 30 straws, asdescribed with reference to Example 1. The coating was applied to athickness of 0.2 mm and the straws were dried also as set out above to afinal water content in the coating of less than 2% by weight.

One advantage of providing vitamins for consumption in this form is thatcertain vitamins, in particular B vitamins, degrade in water. Byproviding them in a coating in a straw they are provided in a dryenvironment.

This straw is used to drink milk and provide flavour to 200-300 ml ofmilk at 5° C. when consumed over approximately 10 minutes.

Example 3 Drinking Straw with Analgesic Coating

An active agent mix was prepared by mixing 40 g ibuprofen with 5 gsteviol glycosides, and 5 g mint flavour. 5 g of this mixture was addedto a paste as described in Example 2 but using carboxymethylcellulose.

This mixture was used to coat 20 straws of the dimensions set out inExample 1, to a thickness of 0.2 mm.

The straws were then dried by passing cool air through them for a periodof 1 hour. They were then wrapped in moisture resistant barrierpackaging.

Such straws release the active agent into approximately 100 ml of waterat room temperature, consumed over a period of 2 minutes.

Example 4 Drinking Straw with Energy Coating

An active agent mix was prepared by combining 5 g of a vitamin pre-mixcontaining vitamins B1, B2, B3, B6, B12 and M-Inositol, 2 g of caffeine,3 g of steviol glycosides, 16 g of lime flavour and 12 g of citric acid.15 g of this mix was added to the hydroxypropyl methyl gel as describedwith reference to Example 1.

This mixture was used to coat 15 straws, which were then dried bypassing cool air through them for a period of 3 hours, until the watercontent was reduced to less than 1%. The coating was applied to thestraw at a thickness of 0.2 mm using an appropriately sized mandrel.

The straws were then wrapped in moisture impervious packaging.

Such a straw was used to flavour water at 20° C. and provided flavour toapproximately 250 ml consumed over a period of 10 minutes.

The invention hence provides internally coated drinking straws withcoating comprising a matrix and an active agent, and methods of makingthe same.

1. A drinking straw comprising an elongate tubular body of an insolublematerial, having an internal coating comprising a modifiedcellulose-based matrix containing an active agent dispersed within thematrix, the body sized to allow a carrier liquid to be drawntherethrough such that passage of the carrier liquid causes the matrixto progressively release the active agent into the carrier liquid to beconsumed by a drinker, wherein the coating has a thickness of less than1 mm.
 2. The drinking straw of claim 1, wherein the modified celluloseis selected from hydroxypropyl methylcellulose, hydroxypropyl cellulose,methyl ethyl cellulose, methyl cellulose, carboxymethylcellulose andcombinations thereof
 3. (canceled)
 4. The drinking straw of claim 1,wherein the active agent comprises sweetener, flavouring, a nutrientand/or a pharmaceutical.
 5. The drinking straw of claim 1, wherein thematrix comprises a non-drip formulation of hydroxypropylmethylcellulose.
 6. The drinking straw of claim 1, wherein the ratio ofmatrix to active agent is between 1:5 and 1:20
 7. (canceled)
 8. Thedrinking straw of claim 1, wherein the coating has a thickness of0.2-0.7 mm.
 9. The drinking straw of claim 1, wherein the coating has athickness of up to 0.5 mm.
 10. (canceled)
 11. (canceled)
 12. (canceled)13. The drinking straw of claim 1, wherein the coating contains lessthan 5% water by weight.
 14. (canceled)
 15. The drinking straw of claim1, wherein the drinking straw is made of plastic.
 16. The drinking strawof claim 1, wherein the coating dissolves into 100-500 ml of carrierliquid.
 17. (canceled)
 18. (canceled)
 19. A method of making a drinkingstraw having an internal coating, the method comprising the steps of:providing a drinking straw of an insoluble material; providing a coatingmaterial comprising a modified cellulose-base matrix and an active agentdispersed within the matrix; applying the coating to an internal surfaceof the drinking straw to a thickness of less than 1 mm; and drying thecoating.
 20. The method of claim 19, wherein the modified cellulose isselected from hydroxypropyl methylcellulose, hydroxypropyl cellulose,methyl ethyl cellulose, methyl cellulose, carboxymethylcellulose andcombinations thereof.
 21. (canceled)
 22. The method of claim 19, whereinthe coating is an adherent gel.
 23. The method of claim 19, wherein thecoating is formulated to be non-drip.
 24. The method of claim 19,wherein the ratio of the matrix to the active agent in the coating isbetween 1:5 and 1:20.
 25. (canceled)
 26. The method of claim 19, whereinthe thickness of the coating applied to the straw is between 0.2 mm and0.7 mm.
 27. The method of claim 19, wherein the coating has a thicknessof up to 0.5 mm.
 28. (canceled)
 29. (canceled)
 30. (canceled)
 31. Themethod of claim 19, wherein the coating is dried to less than 5% waterby weight.
 32. (canceled)
 33. The method of claim 19, wherein thedrinking straw is made of plastic.
 34. A drinking straw comprising anelongate tubular body of an insoluble material, having an internalcoating comprising a modified cellulose-based matrix containing anactive agent dispersed within the matrix, the body sized to allow acarrier liquid to be drawn therethrough such that passage of the carrierliquid causes the matrix to progressively release the active agent intothe carrier liquid to be consumed by a drinker, wherein the coating hasa thickness of less than 1 mm, wherein the modified cellulose ishydroxylpropyl methylcellulose, and wherein the active agent is asweetener or a flavouring.